refrangible

简明释义

英[rɪˈfrændʒɪb(ə)l]美[rɪˈfrændʒəbl]

[物] 可折射的

英英释义

单词用法

同义词

反义词

例句

1.Methods: Measuring the reflectance and the refrangible of the fresh pigskin and comparing the result with the shelter clothing material.

方法：利用微波分光仪测量不同含水量的生物材料对微波的透射、反射与折射情况并与微波防护布料相比较。

2.Methods: Measuring the reflectance and the refrangible of the fresh pigskin and comparing the result with the shelter clothing material.

方法：利用微波分光仪测量不同含水量的生物材料对微波的透射、反射与折射情况并与微波防护布料相比较。

3.The scientist explained that light is refrangible 可折射的, allowing it to bend when passing through different mediums.

科学家解释说，光是可折射的，在通过不同介质时可以弯曲。

4.When studying rainbows, one must consider the refrangible 可折射的 properties of water droplets.

在研究彩虹时，必须考虑水滴的可折射的特性。

5.The refrangible 可折射的 light spectrum can be analyzed using a spectrometer.

可以使用光谱仪分析可折射的光谱。

6.The refrangible 可折射的 nature of the laser beam allowed it to be focused precisely on the target.

激光束的可折射的特性使其能够精确聚焦于目标上。

7.In optics, refrangible 可折射的 wavelengths are crucial for understanding how prisms work.

在光学中，可折射的波长对于理解棱镜的工作原理至关重要。

作文

The concept of light has fascinated humanity for centuries, leading to numerous discoveries and innovations. One particularly interesting aspect of light is its ability to change direction when it passes through different mediums. This phenomenon is known as refraction, and it gives rise to the term refrangible, which refers to the property of light to bend when it enters a new medium. Understanding this property is essential for various fields, including optics, photography, and even astronomy. In this essay, I will explore the significance of refrangible light, its applications, and how it enhances our comprehension of the universe.To begin with, the study of refrangible light has led to the development of lenses, which are crucial in many optical devices. Lenses are made from materials that can bend light effectively, allowing us to focus or disperse light rays. For instance, in cameras, refrangible lenses help capture clear images by directing light onto the film or sensor. Similarly, eyeglasses use refrangible properties to correct vision, enabling individuals to see clearly. The invention of the telescope, which relies heavily on refrangible lenses, has expanded our understanding of the cosmos, allowing astronomers to observe distant celestial bodies and phenomena.Moreover, refrangible light plays a vital role in the field of fiber optics. Fiber optic cables utilize the principle of total internal reflection, where light travels through a glass or plastic fiber, bending at angles that keep it within the medium. This technology has revolutionized communication, providing high-speed internet and transmitting data over long distances with minimal loss. The refrangible nature of light allows for efficient transmission, making it an indispensable component of modern telecommunications.In addition to practical applications, the study of refrangible light also has profound implications for our understanding of the natural world. When light passes through a prism, it disperses into a spectrum of colors, illustrating how different wavelengths behave differently when refracted. This phenomenon not only enhances our appreciation of beauty in nature, such as rainbows, but also provides insights into the composition of light and its interactions with matter. Scientists can analyze the spectrum of light emitted or absorbed by substances to gain information about their properties, leading to advancements in chemistry and physics.Furthermore, the concept of refrangible light extends beyond the physical sciences; it also serves as a metaphor in literature and philosophy. The ability of light to change direction and adapt to new environments can symbolize the fluidity of human thought and experience. Just as light bends and refracts, so too can our perspectives shift in response to new ideas and challenges. This metaphorical interpretation encourages us to embrace change and seek new avenues for growth and understanding.In conclusion, the property of light being refrangible is not only a fundamental aspect of physics but also a cornerstone of technology and human creativity. From the lenses that enhance our vision to the fiber optic cables that connect us globally, refrangible light has transformed our lives in countless ways. Additionally, its metaphorical significance reminds us of the importance of adaptability and open-mindedness in our journey through life. As we continue to explore the mysteries of light, we uncover not only the secrets of the universe but also the depths of our own potential.

光的概念几个世纪以来一直吸引着人类，导致了无数的发现和创新。光的一个特别有趣的方面是它在通过不同介质时改变方向的能力。这种现象被称为折射，它产生了术语refrangible，指的是光在进入新介质时弯曲的特性。理解这一特性对光学、摄影甚至天文学等多个领域至关重要。在这篇文章中，我将探讨refrangible光的意义、应用以及它如何增强我们对宇宙的理解。首先，refrangible光的研究导致了透镜的发展，而透镜在许多光学设备中至关重要。透镜由能够有效弯曲光线的材料制成，使我们能够聚焦或分散光线。例如，在相机中，refrangible透镜通过将光线引导到胶卷或传感器上来捕捉清晰的图像。同样，眼镜利用refrangible特性来矫正视力，使个人能够清晰地看见。依赖于refrangible透镜的望远镜的发明扩展了我们对宇宙的理解，使天文学家能够观察遥远的天体和现象。此外，refrangible光在光纤领域也发挥着至关重要的作用。光纤电缆利用全内反射原理，光线通过玻璃或塑料光纤传播，以保持在介质内的角度弯曲。这项技术彻底改变了通信，提供了高速互联网，并以最小的损失在长距离上传输数据。光的refrangible特性使得高效传输成为可能，使其成为现代电信中不可或缺的组成部分。除了实际应用，refrangible光的研究还有深远的自然世界理解意义。当光通过棱镜时，它会分散成一系列颜色，说明不同波长在折射时表现不同。这种现象不仅增强了我们对自然美的欣赏，例如彩虹，还提供了关于光的组成及其与物质相互作用的见解。科学家可以分析物质发射或吸收的光谱，以获取关于其特性的相关信息，从而推动化学和物理学的发展。此外，refrangible光的概念超越了自然科学；它在文学和哲学中也作为隐喻存在。光改变方向和适应新环境的能力可以象征人类思想和经验的流动性。正如光弯曲和折射一样，我们的观点也可以在面对新想法和挑战时发生变化。这种隐喻解释鼓励我们接受变化，寻求成长和理解的新途径。总之，光的refrangible特性不仅是物理学的基本方面，也是技术和人类创造力的基石。从增强我们视力的透镜到连接我们全球的光纤电缆，refrangible光以无数方式改变了我们的生活。此外，它的隐喻意义提醒我们在生命旅程中适应性和开放心态的重要性。当我们继续探索光的奥秘时，我们不仅揭示了宇宙的秘密，也揭示了自身潜力的深度。